Optical Materials: X (Jan 2019)

Novel reactive molten core fabrication employing in-situ metal oxidation: Erbium-doped intrinsically low Brillouin scattering optical fiber

  • M. Tuggle,
  • C. Kucera,
  • T. Hawkins,
  • M. Cavillon,
  • G. Pan,
  • N. Yu,
  • P. Dragic,
  • J. Ballato

Journal volume & issue
Vol. 1

Abstract

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Reported here is an erbium-doped, few-mode, intrinsically low Brillouin gain optical fiber fabricated using a novel reactive molten core (rMC) process involving in-situ metal oxidation. Specifically, a silica-glass clad, aluminum-metal foil wrapped crystalline Er:YAG (Y3Al5O12) rod was drawn (during which the aluminum metal oxidizes) into an erbium-doped yttrium aluminosilicate glass core fiber. The sesquioxide dopants in the core promote an intrinsically low Brillouin gain coefficient, deduced via additivity modeling and direct measurement to be 0.19 × 10−11 m/W. Fiber losses of 0.25 dB/m (1310 nm) were obtained as was a slope efficiency of 38.2%. The rMC process offers a straight-forward route to expand the potential precursor palette from which specialty optical fibers can be realized. Keywords: Fiber material, Fiber amplifier, Nonlinear fiber optics, Stimulated Brillouin scattering (SBS)